Consider a l-in-square steel thin-walled tube loaded in torsion. The tube has a wall thickness1=t in, is 36 in long, and has a maximum allowable shear stress of 12 kpsi. Determine the max-imum torque that can be applied and the corresponding angle of twist of the tube.(a) Assume that the internal radius at the corners r, = 0.(b) Assume that the internal radius at the corners is more realistically r; = in.1 in1 in

See that gravity and normal external force, and the force of friction is within the inner pucks.…

Answered: Consider a l-in-square steel…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Part 2,3,4
The solid steel rod (1) shown in the figure has an allowable shear stress of 18 ksi. The brass tube (2) has an allowable shear stress of 6 ksi. The outside diameter of the tube is D2 = 1.50 in., and its wall thickness is t2 = 0.125 in. The tube is attached to a fixed plate at C, and both the rod and the tube are welded to a rigid end plate at B. Calculate (a) the largest torque T that can be applied at the upper end of the steel rod if the allowable shear stress in tube (2) is not to be exceeded. (b) the corresponding minimum diameter d1 required for steel rod (1). Rod (1) Tube (2) B D₂ IT -d₁ Fixed plate End plate
50 MPа A 35 MPa B 30 90 MPa The state of stress at a point in a member is shown on the element. You are required to determine the normal stress and shear stress acting on the inclined plane AB and show the result on the sectioned element: Using the method of equilibrium, and NOTE: support your answer with sketches and the FBD.
Textbook: Statics and Strength of Materials Topic: Axial Shear and Bearing StressProvide step-by-step solutions.
A 180-mm length of 30 x 40 mm solid rectangular bar is loaded as shown in the diagram. The right end of the tube is fixed to a rigid frame while the left end is free. (a) Draw the stress element for point B at the top center of the bar (right end) and label the stress vectors acting on the element, including the stress magnitudes. (b) Draw the stress element for point C at the middle of the front face of the bar (right end) and label the stress vectors acting on the element, including stress magnitudes
The hollow circular beam is fixed to the wall (with a bracket) on the left and has an end-cap on the right. The cross-section is shown. (a) Determine state of stress at point A & draw the stress element (b) Determine state of stress at point B & draw the stress element A 100 k-in Tout 2 in n=1.75 in В. B 40 k-in C Tout 30 k X

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